#include "u.h"
#include "../port/lib.h"
#include "mem.h"
#include "dat.h"
#include "fns.h"
#include "io.h"
#include "../port/error.h"
#include "../port/netif.h"
#include "etherif.h"
#include "ethermii.h"
int
mii(Mii* mii, int mask)
{
MiiPhy *miiphy;
int bit, oui, phyno, r, rmask;
/*
* Probe through mii for PHYs in mask;
* return the mask of those found in the current probe.
* If the PHY has not already been probed, update
* the Mii information.
*/
rmask = 0;
for(phyno = 0; phyno < NMiiPhy; phyno++){
bit = 1<<phyno;
if(!(mask & bit))
continue;
if(mii->mask & bit){
rmask |= bit;
continue;
}
if(mii->mir(mii, phyno, Bmsr) == -1)
continue;
r = mii->mir(mii, phyno, Phyidr1);
oui = (r & 0x3FFF)<<6;
r = mii->mir(mii, phyno, Phyidr2);
oui |= r>>10;
if(oui == 0xFFFFF || oui == 0)
continue;
if((miiphy = malloc(sizeof(MiiPhy))) == nil)
continue;
miiphy->mii = mii;
miiphy->oui = oui;
miiphy->phyno = phyno;
miiphy->anar = ~0;
miiphy->fc = ~0;
miiphy->mscr = ~0;
mii->phy[phyno] = miiphy;
if(mii->curphy == nil)
mii->curphy = miiphy;
mii->mask |= bit;
mii->nphy++;
rmask |= bit;
}
return rmask;
}
int
miimir(Mii* mii, int r)
{
if(mii == nil || mii->ctlr == nil || mii->curphy == nil)
return -1;
return mii->mir(mii, mii->curphy->phyno, r);
}
int
miimiw(Mii* mii, int r, int data)
{
if(mii == nil || mii->ctlr == nil || mii->curphy == nil)
return -1;
return mii->miw(mii, mii->curphy->phyno, r, data);
}
int
miireset(Mii* mii)
{
int bmcr;
if(mii == nil || mii->ctlr == nil || mii->curphy == nil)
return -1;
bmcr = mii->mir(mii, mii->curphy->phyno, Bmcr);
bmcr |= BmcrR;
mii->miw(mii, mii->curphy->phyno, Bmcr, bmcr);
microdelay(1);
return 0;
}
int
miiane(Mii* mii, int a, int p, int e)
{
int anar, bmsr, mscr, r, phyno;
if(mii == nil || mii->ctlr == nil || mii->curphy == nil)
return -1;
phyno = mii->curphy->phyno;
bmsr = mii->mir(mii, phyno, Bmsr);
if(!(bmsr & BmsrAna))
return -1;
if(a != ~0)
anar = (AnaTXFD|AnaTXHD|Ana10FD|Ana10HD) & a;
else if(mii->curphy->anar != ~0)
anar = mii->curphy->anar;
else{
anar = mii->mir(mii, phyno, Anar);
anar &= ~(AnaAP|AnaP|AnaT4|AnaTXFD|AnaTXHD|Ana10FD|Ana10HD);
if(bmsr & Bmsr10THD)
anar |= Ana10HD;
if(bmsr & Bmsr10TFD)
anar |= Ana10FD;
if(bmsr & Bmsr100TXHD)
anar |= AnaTXHD;
if(bmsr & Bmsr100TXFD)
anar |= AnaTXFD;
}
mii->curphy->anar = anar;
if(p != ~0)
anar |= (AnaAP|AnaP) & p;
else if(mii->curphy->fc != ~0)
anar |= mii->curphy->fc;
mii->curphy->fc = (AnaAP|AnaP) & anar;
if(bmsr & BmsrEs){
mscr = mii->mir(mii, phyno, Mscr);
mscr &= ~(Mscr1000TFD|Mscr1000THD);
if(e != ~0)
mscr |= (Mscr1000TFD|Mscr1000THD) & e;
else if(mii->curphy->mscr != ~0)
mscr = mii->curphy->mscr;
else{
r = mii->mir(mii, phyno, Esr);
if(r & Esr1000THD)
mscr |= Mscr1000THD;
if(r & Esr1000TFD)
mscr |= Mscr1000TFD;
}
mii->curphy->mscr = mscr;
mii->miw(mii, phyno, Mscr, mscr);
}
mii->miw(mii, phyno, Anar, anar);
r = mii->mir(mii, phyno, Bmcr);
if(!(r & BmcrR)){
r |= BmcrAne|BmcrRan;
mii->miw(mii, phyno, Bmcr, r);
}
return 0;
}
int
miistatus(Mii* mii)
{
MiiPhy *phy;
int anlpar, bmsr, p, r, phyno;
if(mii == nil || mii->ctlr == nil || mii->curphy == nil)
return -1;
phy = mii->curphy;
phyno = phy->phyno;
/*
* Check Auto-Negotiation is complete and link is up.
* (Read status twice as the Ls bit is sticky).
*/
bmsr = mii->mir(mii, phyno, Bmsr);
if(!(bmsr & (BmsrAnc|BmsrAna)))
{
print("miistatus: auto-neg incomplete\n");
return -1;
}
bmsr = mii->mir(mii, phyno, Bmsr);
if(!(bmsr & BmsrLs)){
print("miistatus: link down\n");
phy->link = 0;
return -1;
}
phy->speed = phy->fd = phy->rfc = phy->tfc = 0;
if(phy->mscr){
r = mii->mir(mii, phyno, Mssr);
if((phy->mscr & Mscr1000TFD) && (r & Mssr1000TFD)){
phy->speed = 1000;
phy->fd = 1;
}
else if((phy->mscr & Mscr1000THD) && (r & Mssr1000THD))
phy->speed = 1000;
}
anlpar = mii->mir(mii, phyno, Anlpar);
if(phy->speed == 0){
r = phy->anar & anlpar;
if(r & AnaTXFD){
phy->speed = 100;
phy->fd = 1;
}
else if(r & AnaTXHD)
phy->speed = 100;
else if(r & Ana10FD){
phy->speed = 10;
phy->fd = 1;
}
else if(r & Ana10HD)
phy->speed = 10;
}
if(phy->speed == 0)
{
print("miistatus: phy speed 0\n");
return -1;
}
if(phy->fd){
p = phy->fc;
r = anlpar & (AnaAP|AnaP);
if(p == AnaAP && r == (AnaAP|AnaP))
phy->tfc = 1;
else if(p == (AnaAP|AnaP) && r == AnaAP)
phy->rfc = 1;
else if((p & AnaP) && (r & AnaP))
phy->rfc = phy->tfc = 1;
}
phy->link = 1;
return 0;
}
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